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Tuesday, May 7, 2019 9:30 a. m. & 11:30 a.m.
2018-2019
Resource Guide
Full Steam Ahead With Mister C
Conceived and performed
byKevin Cornell
Gary Minyard Vice President of
Education & Engagement
COMPREHENSIONAbout the Show, Spotlight on Mister C and Ohio Spotlight .........................................Page 2Pre-Show Conversation Starters & Lab Safety Tips ......................................................Page 3The Scientific Method ................................................................................................ Page 4Engineering Vocabulary ............................................................................................ Page 5
CONNECTIONMarshmallow Launcher ..............................................................................................Page 6Tiny Towers .................................................................................................................Page 7Types of Energy ...........................................................................................................Page 8
CREATIVITYSpinning Color Wheel ................................................................................................. Page 9Magnetic Slime ........................................................................................................ Page 10Tie Dye Chemistry .....................................................................................................Page 11Additional Resources for Students and Adults .......................................................... Page 13
Ohio’s Learning Standards for English Language ArtsGrade 2- RI.2.2, RI.2.3, RI.2.6Grade 3- RI.3.2, RI.3.3, RI.3.6Grade 4- RI.4.2, RI.4.3, RI.4.6Grade 5- RI.5.2, RI.5.3, RI.5.6Grade 6- RI.6.2, RI.6.3, RI.6.6Grade 7- RI.7.2, RI.7.3, RI.7.6Grade 8- RI.8.2, RI.8.3, RI.8.6
Ohio’s Learning Standards for ScienceChanges in Motion Matter and Forms of EnergyElectricity, Heat and MatterLight, Sound and MotionMatter and MotionCycles of Matter and Flow of EnergyForces and Motion
Ohio’s Learning Standards for MathMEASUREMENT AND DATAGEOMETRY
National Core Arts Theatre StandardsGrade 2- TH:Pr5.1.2, TH:Cn11.1.2Grade 3- TH:Pr5.1.3, TH:Cn11.1.3Grade 4- TH:Pr5.1.4, TH:Cn11.1.4Grade 5- TH:Pr5.1.5, TH:Cn11.1.5Grade 6- TH:Pr5.1.6, TH:Cn11.1.6Grade 7- TH:Pr5.1.7, TH:Cn11.1.7Grade 8- TH:Pr5.1.8, TH:Cn11.1.8
You will find these icons listed in the resource guide next to the activities that indicate curricular connections. Teachers and parents are encouraged to adapt all of the activities included in an appropriate way for your students’ age and abilities. FULL STEAM AHEAD WITH MISTER C fulfills the following Ohio and National Education Standards and Benchmarks for second through eighth grade.
Table of Contents
Curriculum Connection
This resource guide was created by Natalie Katona.
All activities are available for distribution and use
in the classroom or at home.
Welcome to the 2018-2019 Discovery Series in the Victoria Theatre at Victoria Theatre Association. We are very excited to be your education partner in providing professional arts experiences to you and your students!
I am thrilled that Mr. C is bringing his unique perspective on S.T.E.A.M. (Science, Technology, Engineering, Arts, Math) to the Victoria Theatre. He is one of PBS’s Learning Media Digital Innovators and has a passion for bringing science into the classroom in a fun, exciting, and musically-infused way. This brand-new show, having its world premiere here in Dayton, and we could not be more excited that you and your students are here to be inspired!
The information and activities in this resource guide have been carefully crafted to help you and your students explore the many ways a live theatre experience can open up learning opportunities. Grade level icons will help you determine which activities are good for students, too. And don’t forget to take advantage of the local resources listed inside to extend the play-going experience and make even more curricular connections for you and your students. Thank you again and welcome!
AllGRADESAbout the Play
Spotlight on Kevin Cornell
Ohio Spotlight
Are you ready for some hair-raising science, toe-tapping music and mind-blowing media? Join Mister C for another fun day of learning in the lab! As the creator and host of Full STEAM Ahead, a new show on PBS Kids’ member stations CET and ThinkTV in southwest Ohio, Mister C is no stranger to finding exciting and engaging ways to explore STEAM (Science, Technology, Engineering, Art, and Math) in our everyday lives. This world premiere of Full STEAM Ahead Live will have everyone singing, dancing and learning to the tune of science. Students and teachers will be amazed with this fun and educational series as Mister C uses humor, media and the engineering design process to make the ordinary extraordinary!
STEAM (Science, Technology, Engineering, Art and Math) education is the focal point of FULL STEAM AHEAD WITH MISTER C. The Ohio Academy of Science is one of the leading supporters of STEAM education in the state. Their mission is to foster curiosity, discovery, innovation, and problem-solving skills in Ohio. They do this through programming such as annual science days, where students submit and present technical science reports and products they create. They also partner with COSI to host one of the largest science fairs in the world. The academy also provides scholarship opportunities to students.
For more information about the academy, please visit: http://ohiojournalofscience.org/index.
FULL STEAM AHEAD WITH MISTER C is a program designed by Kevin Cornell. Kevin has worked in education in Dayton, Ohio for 17 years as a fifth grade science teacher, an elementary principal, and a curriculum development specialist. He has involved his daughter in his live Hair Raising Science shows and outside of education and show business, he and his family enjoy playing soccer and cracking jokes. His one passion in his career is to integrate education concepts with his love for music. You can find his science clips on both PBS’s ThinkTV and YouTube. To learn more about his experiments, visit:
https://www.youtube.com/c/learningscienceisfun
http://www.thinktv.org/stemworld/full-steam-ahead/
Pre-Show Conversation Starters
FULL STEAM AHEAD WITH MISTER C explores the engineering process while using the Scientific Method. Prepare your students for these amazing experiments by discussing these questions:
1. Describe the Scientific Method.2. What are some important scientific discoveries that changed the world?3. Describe what you think the engineering process would be, what is it like to be an engineer?
Lab Safety
• Report all accidents, injuries, and breakage of glass or equipment to you instructor
immediately. The teacher or adult should be the only person handling broken materials.
• Keep pathways clear by placing extra items (books, bags, etc.) on the shelves or under the work tables to avoid people tripping and falling or spilling materials.
• Long hair (chin-length or longer) must be tied back to avoid catching fire or dipping in chemicals.
•Leave your work station clean and in good order before leaving the laboratory.
•Learn the location of the fire extinguisher, eye wash station, first aid kit, and safety shower.
•Walk calmly in the lab without running to avoid bumping into materials or one another.
•Wear safety goggles at all times to avoid damaging eyes when working with heat, chemicals, or cutting materials.
•Do not taste or smell chemicals •No eating or drinking in the lab at any time!
•Never point a test tube being heated at another student or yourself. Never look into a test tube while you are heating it.
For Mister C to have his scientific experiments be successful, he first must set up a safe lab environment. Whenever you’re doing a science lab, you should be following these tips:
Scientific MethodWhen Mister C has a problem that needs to be solved, he must use the Scientific Method. All experiments and scientific theories are worked through this process. Read through the steps of the Scientific Method and then discuss the prompts following.
Conclusion: Discuss the following experiment and what your conclusion would be from the data given.•Studies have shown that reading on white paper could be leading to concentration issues in children. A teacher handed out the same article on white paper, yellow paper, and green paper. They then had to answer five basic comprehension questions based on one read of the article. You hypothesized that paper color does not affect concentration and everyone would do about the same on the questions.
Discuss as a class some important scientific inventions or discoveries. • What do you think the questions were that prompted those discoveries to be made? •What is an observation you have made about your neighborhood, school, or environment? What are some questions you could ask about those observations that would lead to an experiment?
Research: Discuss how you would research to gain background knowledge on the following questions• Who is the better predator: a tiger or lion?• Does salt water dissolve objects quicker than fresh water?
Hypothesis: Discuss a possible hypothesis for each question and explain the reasoning behind it.• Who burns energy quicker: a dog or a cat?• An elephant at the zoo has stopped eating, what could be causing this?
Experiment: Briefly discuss an experiment that could be designed to test one of the hypothesizes you discussed.
Collect/Analysis of Data: Discuss the different ways scientists can collect data and the different data types they need to collect.
Observation/ QuestionTopic for research and
experimentation or questionthat needs to be answered
ResearchFind out about the topic
ExperimentDevelop a procedure to test
the hypothesis
Collect DataRecord the resultsof the experiment
AnalysisExamine the data
ConclusionCompare the hypothesis to
the experiments results
HypothesisPredict the outcome to the problem
Data collected: White paper scored an average of 2/5 questions correct, yellow paper averaged 3/5 questions correct, and green paper averaged 4/5 questions correct.
What is your conclusion based on the hypothesis and data?
The Scientific Method
Engineering Vocabulary To complete Mister C’s engineering challenges, you should know the language! Study up on these common engineer terms before coming to see FULL STEAM AHEAD WITH MISTER C.
Design brief- a written plan that identifies a problem to be solved and its criteria and constraints
Design process- a systematic problem-solving strategy use to develop many possible solutions to solve a problem
Model- a detailed visual, mathematical representation of an object or design.
Prototype- a full-scale
working model of a design.
Design statement- describes what an engineer should do to solve the problem without specifically stating how to solve the problem.
Research- study of materials and sources to establish facts and find new conclusions.
Sketch- a rough, handmade drawing that represents the main features of an object or scene .
Fulcrum: The point on which a rest or is supported and on which it pivots.
Lever: A rigid bar resting on a pivot, used to help move a heavy or firmly fixed load with one end when pressure is applied to the other.
Force: Anything that acts on a body to change its rate of acceleration or alter its momentum.
Experiment: A scientific procedure undertaken to make a discovery or to test a hypothesis.
Criteria- the requirements needed of a project or product and the stan-dards to which it will be judged.
Constraint- a limitation or restriction.
Marshmallow Launcher AllGRADES
NAME: _______________________________________ Date: ______________________
Sketch Here:
Trial Number Marshmallow Distance TraveledWhat changes will you make to your design?
Use the engineering process to design and create your own marshmallow catapult! Compete against your classmates to see who can get their marshmallow to go the furthest distance.Problem: To launch your marshmallow the furthest distance Materials:• 10 wooden skewers • Rubber band • 10 large marshmallows • Plastic spoon • Roll of masking tape • Yard Stick or measuring tapeSteps:1) Study the materials given, how can you use these to design a catapult? What will need to be used and where will you use it? What are the different materials for?2) Sketch out some design ideas in the space provided
3)Construct your catapult, you can change or manipulate the materials you are given in any way to design your catapult. You will only be given these materials; no materials will be replaced and you cannot ask for additional materials.4) Run your trials before competing with your classmates and fill out the chart with your data.
Concluding Questions: Answer these questions based on your data table
1) Which catapult design gave you the furthest distance?
2) Why do you think that design gave you the best result?
3) What patterns did you notice about how far the marshmallow would travel based on the changes you would make to your design?
For younger students, consider giving them examples of catapults to design and test.
Toothpick Towers
NAME: _______________________________________ Date: ______________________
4) Construct your tower using the following criteria: a.The tower must be at least two toothpicks high b.It can only use the materials listed on this sheet c.You may change or manipulate the materials d.It must hold the marbles for ten seconds without collapsing5) Collect your Data: Fill out the chart to track the data of your attempts of creating the strongest tower.
AllGRADES
Sketch Here:
Trial Number
1
Marbles Held Before Collapse What changes will you make to your design?
Problem: •Why don’t bridges or buildings fall under so much weight stress? •Can you build a bridge that will the most marbles without breaking?Materials: • 20 toothpicks per student or student group • One ball of modeling clay for student or student group • Marbles to test how much weight the tower can holdExperiment:1) Study the different shapes one can make with toothpicks. Think about other shapes you can make using the toothpicks and marshmallows. 2) Hypothesize, how many marbles do you think you will be able to get a tower to hold? 3) Sketch and design your tower in the space given below
Concluding Questions: Answer these questions based on your data table
1) Which catapult design gave you the furthest distance?
2) Why do you think that design gave you the best result?
3) What patterns did you notice about how far the marbles would travel based on the changes you would make to your design?
2
3
Types of Energy
NAME: _______________________________________ Date: ______________________
MECHANICAL - The type of energy that is stored in objects caused by tension. (ex: an unwound slinky)
THERMAL – The type of energy created from moving molecules that creates heat and fire.
CHEMICAL – The type of energy stored in the bonds of molecules. Coal and natural gas are used to create energy to power trains, cars and other ways to travel all over the country.
RADIANT – The energy associated with the movement of light. Also known as solar energy.
ELECTRICAL – The type of energy that comes from tiny charged particles called electrons. (Ex: lightning)
NUCLEAR – The type of energy created when atoms are split or fused. This energy is created in Nuclear Power Plants.
AllGRADES
Label the picture with the energy type it represents
Mechanical Thermal Chemical Radiant Electrical Nuclear
Spinning Color Wheel
NAME: _______________________________________ Date: ______________________
MATERIALS NEEDED • White cardboard, 1 piece per student • String, 1 piece per student • Markers, crayons, colored pencils, or paint •Scissors • Compass
AllGRADES
Step 1
Step 2
Step 3
Step 4
Take a piece of white cardboard, and from it cut a circle about 3 inches across using your compass to trace the circle.
Place your compass in the center of your circle. Trace a circle that is ¾ of an inch and then cut out that circle from the middle.
Divide the circle into 7 equal parts, and using your coloring materials color the wheel in the order of the rainbow: red, orange, yellow, green, blue, indigo, and violet.
Give your wheel time to dry. Take your string and tie it into a large loop, pull the loop through the hole.
HOW TO PLAY WITH YOUR NEW COLOR WHEEL SPINNING TOY
Extension: Other combinations to try!
Bue and red to make purple
Blue and yellow to make green
Yellow and red to make orange
Now hold the ends of the loop one in each hand. Twist one end of your loop until it is tightly woven together. Then, pull both ends of your rope taught. The wheel will spin quickly, causing
the colors to merge into gray or white. Now you’ve learned that white light is a combination of all the colors!
See if you can use just the primary colors on your wheels to make the secondary colors by trying these
combinations. Change the wheel into a six-piece wheel, alternating between the two colors.
Magnetic Slime
NAME: _______________________________________ Date: ______________________
Mister C uses slime to teach about chemical reactions and polymers. Extend his project and see if you can meet the challenge of making oozing slime magnetic! This is a hands-on science activity you have to do to believe.
You Will Need:•8 oz. bottle of school glue •Borax •Large mixing bowl •Plastic cup Measuring cup and utensils •Zipper-lock bag •Iron filings or iron powder •Neodymium magnet •Water
Procedures: 1. Empty the entire bottle of school glue into the large mixing bowl. Add water to the empty glue bottle, tighten the lid, and shake it up. Pour the water and glue solution from the bottle into the bowl. Add some iron filings or iron powder to the mixture of water and glue before stirring the entire mixture. 2. Measure 1/2-cup of water and pour it into the plastic cup. Add 1 teaspoon of borax to the cup of water and stir the solution. Add the borax solu-tion to the mixture in the bowl. Mix it up VERY well. Hover the neodymium magnet near the slime and witness some ooey, gooey, slime-based magnetism.
What is happening?
What makes this slime magnetic? The iron filings are magnetic! Iron is one of three elements (cobalt, iron, and nickel) that are magnetic at room temperature. The mixture of school glue with borax and water produces a putty-like material called a polymer. In simplest terms, a polymer is a long chain of molecules.
You can use the example of cooking spaghetti to better understand why this polymer behaves in the way it does. When a pile of freshly cooked spaghetti comes out of the hot water and into the bowl, the strands flow like a liquid from the pan to the bowl. This is because the spaghetti strands are slippery and slide over one another. After a while, the water drains off of the pasta and the strands start to stick together. The spaghet-ti takes on a rubbery texture. Wait a little while longer for all of the water to evaporate and the pile of spaghetti turns into a solid mass -- drop it on the floor and watch it bounce.
Polymers are made out of long strands of molecules like spaghetti. If the long molecules slide past each other easily, then the substance acts like a liquid because the molecules flow. If the molecules stick together at a few places along the strand, then the substance behaves like a rubbery solid called an elastomer. Borax is the compound that is responsible for hooking the glue’s molecules together to form the putty-like material.
Now, what prevents the iron filings from flying out of the slime? The slime is able to hold onto its iron filings by adhesion. Adhesion is the force that holds molecules of different substances together. In addition to adhesion, the slime is bonded together by cohesion, the force that holds molecules of the same substance together. The combination of mag-netism, adhesion, and cohesion results in the weird, stretchy volcanoes that appear when you hover the neodymium magnet near the slime!
AllGRADES
Tie - Dye Chemistry
NAME: _______________________________________ Date: ______________________
AllGRADES
With some simple materials, you can learn about the properties of liquids and solutions. A solution is a homogeneous mixture in which one or more substances are dissolved into another substance. Solubility is the ability of a chemical to dissolve in a liquid and create a solution. Use permanent markers, some fabric, and rubbing alcohol to examine how solubility works!
Materials Needed:•White fabric squares, one per student. You may also have students bring in white t-shirts or other clothing to dye.•Permanent colored markers •Rubbing alcohol (70%) •Cups or jars •Eye droppers or pipettes •Rubber bandsSteps/Procedure: 1)Lay your fabric over the mouth of the cup or jar and spread it tight. Hold the fabric in place using a rubber band. 2)Use the permanent colored markers to draw designs on your fabric. Use dots, lines, or other shapes. Only color on the part of the fabric that is on the mouth of the cup or jar. 3)Use a dropper to place 5-10 drops of the rubbing alcohol on the designs. Wait a few minutes for the alcohol to soak the colors. 4)Repeat steps 1-3 several times on different areas of the fabric.What’s happening? The dye in the permanent markers can only absorb and spread so far into the fabric. When you added the alcohol, the dye began to dissolve. The fabric still absorbs the alcohol and dye, spreading the dye farther across the fabric. The alcohol dries and the dye becomes part of the fabric. You can now wash the fabric without worrying about it washing out of the fabric.Data Collection
Section of Fabric
1
How did the fabric look after applying permanent marker?
How did the fabric look right after you applied the rubbing alcohol?
How did the fabric look after you let the rubbing alcohol set for 3-5 minutes
2
3
Conclusion Questions:1) Describe what happens after you press the markers into the fabric. 2) Describe what happens when you add drops of alcohol. 3) Hypothesize what you think would happen if you use water instead of alcohol. 4) Hypothesize why you used permanent markers instead of washable markers.
Books for Students about Science
Mistakes that Worked: 40 Familiar Inventions & How They Came to Be, Written by Charlotte Foltz Jones and Illustrated by John O’Brien. Delacorte Books for Young Readers, 1994.Case Closed?: Nine Mysteries Unlocked by Modern Science, Written by Susan Hughes and Illustrated by Michael Wandelmaier. Kids Can Press, 2013.Girls Think of Everything: Stories of Ingenious Inventions by Women, Written by Catherine Thimmish and Illustrated by Melissa Sweet.
HMH Books for Young Readers, 2002.
Publications for Teachers and Parents:Awesome Science Experiments for Kids: 100+ Fun Stem/Steam Projects and Why They Work, Written by Crystal Chatterton. Rockridge Press, 2018.The Everything Kids’ Easy Science Experiments Book: Explore the world of science through quick and fun experiments!, Written by J. Elisabeth Mills. Everything, 2001.Kitchen Science Lab for Kids: 52 Family Friendly Experiments from Around the House, Written by Liz Lee Heinecke. Quarry Books, 2004.
Websites:https://www.exploratorium.edu/- The official website for the Exploatorium Museum in San Francisco, California offers scientific videos, inexpensive science experiments to do at home or in a classroom, and other science related activities.
https://www.sciencebuddies.org/- This website offers aide in finding the perfect science fair project as well as guides to help students complete that project.
https://sciencebob.com/- A website created by a former teacher with experiment videos, science fair ideas, and scientific facts.
Victoria Fuse’s Local ResourceDayton, Ohio has started a new tradition at Carillon Historical Park. Each year people who have a passion for creating, designing, and inventing come together at the Dayton Mini Maker Faire. Visitors to the event can see a variety of activities such as video game design, 3D printing, art in different medias, and Mister C’s science experiments, as well as other creative innovations. Each year, teams of makers get together in the Boneyard Build- Off where teams are given a challenge to meet and a pile of garbage to make it happen. Students can learn a lot about tinkering and other engineering sciences by visiting the fair and its many exhibits. To learn more about what the event has to offer, please visit: https://dayton.makerfaire.com/.
Resources for Students and Adults
Kevin Cornell takes on the role of Mister C for PBS’s Thinktv. Mister C is a creative, innovative, and inspiring educator who combines video and music with technology to enhance the educational experience for all learners. In 2016 he was named the Lead PBS Digital Innovator for the state of Ohio, in recognition of his outstanding use of digital media and technology as
learning tools. Mister C is known for marching and dancing to his own beats and creating unique STEAM-themed multimedia projects. The songs and videos found on PBSLM are designed to help students grasp concepts that can often be challenging to understand.
SUPPORT FOR FUELING EDUCATION IS GENEROUSLY PROVIDED BY
GREATER DAYTON REGIONAL
TRANSIT AUTHORITY
SPEEDWAY LLC
The Education & Engagement programs of Victoria Theatre Association are
made possible through the support and commitment of The Frank M. Tait
Foundation and the following sponsors and donors whose generosity have
opened the door of live theatre to the students of the Miami Valley:
PROGRAM SPONSORS
STEVE & KATE HONE
THE FRANK M. TAIT FOUNDATION
THE BERRY FAMILY FOUNDATION
ROD & REGINA CRANE CHARITABLE FUND
GREENPOINT METALS
THE KUNTZ FOUNDATION
MATHILE FAMILY FOUNDATION
RAY WYLAM
Brought to you by
138 North Main Street
VICTORIA • SCHUSTER • MAC/LOFT • ARTS ANNEX
All schools that receive scholarships for a show
and/or transportation are asked and encour-
aged to create thank-you letters or cards for our
sponsors. Please address your students’ thank-
you notes to:
DISCOVERY Sponsors
c/o Victoria Theatre Association
138 North Main Street
Dayton, OH 45402
DON’T FORGET
EDUCATION PROGRAMS: Broadway Camps & Intensives
Broadway Master Classes
EDUCATION PROGRAM